HUE029091T2 - Conveyor system and method - Google Patents

Description

Description

Technical Field [0001] This invention relates a conveyor system for gripping and transporting a web, such as a plastic film and more particularly to a conveyor system that pre-inserts a portion of the web into a first belt before the portion is gripped between the first belt and a second belt.

Background of the Invention [0002] U.S. Patent No. 5,743,070 (herein the S P Patent) entitled PACKAGING MACHINE, MATERIAL AND METHOD discloses a machine for use in packaging which has been highly successful commercially. The S P Patent and patents which resulted from divisional applications claim a machine and a plastic web used by that machine as well as a process of making packages.

[0003] With the machine of the S P Patent the web is fed first through a slitter which splits a top portion into two lips that are respectively grasped between associated pairs of belts for transport through a load section. The belts which transport the web through the load section are more fully described in U.S. Patent 5,722,218 issued March 3,1998 and entitled PLASTIC TRANSPORT SYSTEM (herein the Load Belt Patent). This prior art discloses in particular a conveyor assembly according to the preamble of claim 1.

[0004] As the web is fed to the load section, the lips are spread to effect the sequential opening of the side connected bags, each into a rectangular opening for receiving a product to be packaged. The lips are then returned tojuxtaposed relationship and trimmed as the lips are grasped by further belts in a sealer section. The further belts are preferably belts of the type described and claimed in U.S. Patent 6,170,238 issued January 9,2001 and entitled SEALING MACHINE AND METHOD (herein the Sealer Belt Patent).

Summary [0005] The present application relates to gripping and transporting a web, such as a plastic film. In one exemplary embodiment, a conveyor system pre-inserts a portion of the web into a first belt before the portion is gripped between the first belt and a second belt. In one exemplary embodiment, a pair of lips of a web are inserted into a corresponding first pair of belts and then the pair of lips are secured in the first pair of belts by inserting a second pair of belts into the first pair of belts over the pair of lips. This can be accomplished in a wide variety of different manners. In one exemplary embodiment, rollers are used. For example, a first roller or pair of rollers may press the pair of lips into grooves of the corresponding first pair of belts. A downstream second roller or pair of rollers then presses all or a portion of the second pair of belts into the grooves of the first pair of belts over the pair of lips to secure the pairs of lips between the corresponding pairs of belts. One type of packaging machine that may first insert a pair of lips into a first pair of belts and then secure the pair of lips by inserting a second pair of belts is a packaging machine thatforms packages from a chain of side connected bags. However, many other types of packaging machines may benefit from first inserting a pair of lips into a first pair of belts and subsequently securing the pair of lips by inserting a second pair of belts.

Brief Description of the Drawings [0006] FIG. 1A is a flow chart that illustrates an exemplary embodiment of a method of gripping a web with one or more sets of conveyor belts; FIG. 1 is a schematic perspective view of a web conveyor having a web gripping system; FIG. 2 is a sectional view taken along the plane indicated by lines 2-2 of FIG. 1 ; FIG. 3 is a sectional view taken along the plane indicated by lines 3-3 of FIG. 1 ; FIG. 4 is a sectional view taken along the plane indicated by lines 4-4 of FIG. 1 ; FIG. 5 is a sectional view taken along the plane indicated by lines 5-5 of FIG. 1 ; FIG. 6 is a top plan view of a bagger section of a machine utilizing an exemplary embodiment of a web gripping system; FIG. 7 is a side elevational view of the bagger section shown in FIG. 6; FIG. 8 is an enlarged, fragmentary, sectional view of the transport belt spacing adjustment mechanism as seen from the plane indicated by the lines 8-8 of FIG. 6; FIG. 9 is a partial perspective view of an exemplary embodiment of a web gripping system that may be included the machine illustrated by FIG. 6; FIG. 10 is a side elevation view of the web gripping system illustrated by FIG. 9; FIG. 11 is a top plan view of the web gripping system illustrated by FIG. 9; FIG. 12 is a sectional view taken along the plane indicated by lines 12-12 in FIG. 11 ; FIG. 13 is a sectional view taken along the plane indicated by lines 13-13 in FIG. 11 ; FIG. 14 is a sectional view taken along the plane indicated by lines 14-14 in FIG. 11 ; FIG. 15 is a sectional view taken along the plane indicated by lines 15-15 in FIG. 11 ; FIG. 16 is a sectional view taken along the plane indicated by lines 16-16 in FIG. 11 ; FIG. 17 is a perspective view of an exemplary embodiment of a roller assembly; FIG. 18 is a top view of the roller assembly shown in FIG. 17; FIG. 19 is a front view of the roller assembly shown in FIG. 17; FIG. 20 is a side view of the roller assembly shown in FIG. 17; FIGS. 21-28 are sectional views of alternate belt embodiments of gripping belts each as seen from a plane normal to a path of travel of web supported by the belts; FIG. 29 is a perspective view of a portion of the bag flattening mechanism shown in FIG. 7; and FIG. 30 is a perspective view showing an alternate arrangement to the mechanism of FIG. 7 for flattening bags

Detailed Description I. Pre-Insertion of Web into Transport Belts and Pre-Insertion Device [0007] The flow chart of FIG. 1A illustrates an exemplary embodiment of a method 10 of gripping a web 15 with belts 40, 41,48, 49. In the method, a portion or portions of the web 15, such as lips 38, 39, are pre-inserted 12 into a first belt or pair of first belts 40, 41. Then, after the pre-insertion of the web portion or portions into the belt or pair of belts 40, 41, the web portion or portions are gripped 14 between the first belt or pair of belts 40, 41 and a second belt or pair of belts 48, 49. This may be accomplished in a variety of different ways by a variety of different apparatus. One layer of web material may be gripped or two lips may be gripped as shown in the following exemplary embodiment.

[0008] FIGS. 1 and 2 illustrate an exemplary embodiment of a conveyor assembly 16 of an exemplary embodiment. The conveyor assembly 16 includes first endless conveyor belt(s) 40, 41 having a web engaging recess 51, 52 formed therein, second endless conveyor belt(s) 48, 49 having a cross-sectional configuration that mates with the recess 51,52, a web pre-insertion device 22, and a belt insertion device 24. The web pre-insertion device 22 is positioned and configured to press a portion 38,39 of the web 15 into the recess(es). The belt insertion device 24 is positioned to press the second endless conveyor belt 48, 49 into the recess 51, 52 after the pre-insertion device 22 has pressed the portion 38, 39 of the web into the recess. Pressing the second endless conveyor belt 48, 49 into the recess 51,52 by the belt insertion device 24 causes the belts 40, 41,48, 49 to grip the web. Movement of the belts 40, 41, 48, 49 moves the gripped web 15 along the path of travel.

[0009] The illustrated conveyor assembly 16 includes two pairs of belts 40, 41,48, 49. However, other conveyors, for example conveyors that do not open the web with belts, may include only two belts, such as belts 40 and 48. The illustrated belts 40,41 are endless conveyor belts (i.e. ends of the belt are connected to form a loop). The recess or groove 51, 52 of each belt 40, 41 can take a wide variety ofdifferentforms. In the illustrated embod- imént, the recess or groove 51, 52 is circular in cross-section and is formed in a top surface 20 of each belt 40, 41. However, as will be described in more detail below, the recess or groove 51,52 can be formed in other surfaces of the belts 40, 41 and can have different shapes. The illustrated belts 48, 49 are also endless and are circular in cross-section. However, the belts48,49 can have a variety of different shapes and configurations.

[0010] The pre-insertion device 22 can take a wide variety of different forms. Examples of acceptable pre-insertion devices 22 include, but are not limited to rollers, fixed memberthat extends into the recess 51,52, a move-able member with a portion that extends into the recess 51, 52, such as a tank tread or belt arrangement with a projection or projections that extend into the recess, an air nozzle, a vacuum applied between the recess and the web portion, etc. The pre-insertion device 22 may be any arrangement that moves the portion 38,39 into the recess 51, 52 before the belt insertion device 24 presses the second endless conveyor belt 48, 49 into the recess 51, 52. In the example illustrated by FIGS. 1-5, the pre-insertion device 22 comprises a roller 26 (see FIG. 3) with annular projections 28 that fit in the recesses 51,52. The dashed line 30 in FIG. 3 schematically indicates that the roller 26 may be a single roller that includes both projections or two separate rollers. The projections 28 may take a variety ofdifferentforms. In the illustrated embodiment, the projection 28 is annular.

[0011] The belt insertion device 24 can take a wide variety of different forms. Examples of acceptable belt insertion devices 24 include, but are not limited to rollers, a fixed member that pushes the second pair of belts 48, 49 into the recess 51, 52, a moveable member, such as a tank tread or belt arrangement, and including magnetic material in or on one or more of the belts 40, 41,48, 49. The belt insertion device 24 may be any arrangement that moves the belts 48, 49 into the recess 51,52 of the belts 40, 41. In the example illustrated by FIGS. 1-5, the belt insertion device 24 comprises a roller 32. Thedashed line 34 in FIG. 4 schematically indicates that the roller 32 may be a single roller or two separate rollers.

[0012] The sectional views of FIGS. 2-5 at the positions indicated by FIG. 1 illustrate how the conveyor assembly 16 pre-inserts the lips 38, 39 of the the web 15 into the belts 40, 41 and then grips the lips between the belts 40, 41 and the belts 48, 49. Referring to FIGS. 1 and 2, at the position indicated by lines 2-2 in FIG. 1, the lips 38, 39 are positioned above the belts 40, 41. Referring to FIGS. 1 and 3, at the position indicated by lines 3-3 in FIG. 1, the lips 38, 39 are being pressed into the recesses 51, 52 by the projections 28 of the insertion roller 26. Referring to FIGS. 1 and 4, at the position indicated by lines 4-4 in FIG. 1, the lips 38, 39 are in the recesses 51, 52 of the belt and the belts 48,49 are about to be pressed into the belts 40, 41 by the roller 32. Referring to FIGS. 1 and 5, at the position indicated by lines 5-5 in FIG. 1, the lips 38, 39 and the belts 48, 49 are in the recesses 51,52 of the belt and the belts 48, 49 such that the lips 38, 39 are securely gripped between the belts 40, 41 and the belts 48, 49.

[0013] Referring to FIGS. 17-20, in one exemplary embodiment the web pre-insertion device 22 and the belt insertion device 24 are part of a single assembly 200. The assembly 200 can take a variety of different forms. The illustrated assembly includes a web pre-insertion roller 26, a belt insertion roller 32, and a mounting assembly 202. The mounting assembly 202 includes roller brackets 204 and mounting flanges 206. The web preinsertion roller 26 and the belt insertion roller 32 are mounted between a pair of the roller brackets 204. Axles 208, 210 of the pre-insertion roller 26 and the belt insertion roller 32 are connected to the roller brackets 204. The axles 208, 210 may be within three inches of one another, within two inches of one another, or even within one inch of one another, so that the pre-insertion of the web 15 into the channels 51, 52 happens very close to the insertion of the belts 48, 49 into the channels. This may be the case regardless of whether or not the preinsertion device 22 and the belt insertion device are part of the same assembly. The mounting flanges 206 are connected to the roller brackets 204 to facilitate attachment of the assembly 200 to the conveyor assembly 16. In the illustrated embodiment, the mounting flanges 206 include an adjustment mechanism 212 that allow the position of the roller brackets 204 to be adjusted with respect to the mounting flanges 206 in the direction indicated by arrow 220. This adjustment allows the position of the preinsertion roller 26 and the belt insertion roller 32 to be adjusted relative to the belts 40, 41 to be adjusted, to adjust how far the web 15 is pressed into the recesses and/or how far the belts 48, 49 are pressed into the recesses 51,52. II. Packaging Machine that Uses the Pre-Insertion Device [0014] The conveyor assembly 16 illustrated by FIGS. 1-5 can be used in a wide variety of different applications. For example, FIGS. 6 and 7 illustrate an exemplary embodiment of a bagging machine 100 that uses conveyor assembly 16 to make packages from a web 15 of side connected bags. The web 15 is fed from a supply shown schematically at 16 to a bagger section 17. The bagger section 17 is separably connected to an optional bag closure section schematically indicated at 19. The bag closure section can take a wide variety of different forms. For example, the bags may be sealed using the sealing machine and method disclosed by U.S. Patent No. 6,170,238. The bag closure section may be any apparatus that applies a closure (i.e. staple, tape, heat seal, re-sealable seal, etc.) to the loaded bags.

[0015] Referring to FIG. 7, the illustrated bagger section 17 includes an optional wheeled support carriage 20. The support carriage 20 includes a support frame for supporting bagging mechanisms. In the drawings the bagging mechanism is shown in its vertical orientation forgravity loading. The machine will be described in such orientation it being recognized that the mechanism may be positioned in a horizontal orientation and at other angular orientations. III. Examples of a Web [0016] The machines 100 with web pre-insertion arrangements may use or be adapted to use many types of packaging bags, which may include separate bags, as well as chains of connected bags. In one embodiment, the machine is adapted for use with a chain or web of side connected bags. In the exemplary embodiment, the web 15 is an elongated flattened plastic tube. The tube includes a top section 23 forfeeding along a mandrel 24 (see FIGS. 1 and 7). The top section 23 may be connected to the tops of a chain of side connected bags 25 by front and back lines of weakness in the form of perforations 27. Frangible connections 30 connect adjacent bag side edges (see FIG. 7). Each bag 25 includes a face 31 and a back 32 interconnected at a bottom 33 by a selected one of a fold or a seal. Side seals adjacent the interconnections 30 delineate the sides of the bags 25. The bag faces and backs 31, 32 may be respectively connected to the top section 23 by the lines of weakness 27, 28, such that the top section 23 when the web is flattened itself is essentially a tube. Additional details of acceptable webs of preformed bags may be found in U.S. Patent Nos. 3,254,828, 4,344,557, 5,957,824, and 6,367,975.

[0017] The web 15 may be made from a wide variety of different materials. The web pre-insertion device 22 is particularly useful when the web is made from a thick material, a rigid material, or materials with a high coefficient of friction. In this application, a thick web material may be any material that is over 0.076 mm (3.0 mils) thick. The rigidity of a material is effected by thickness. In addition, some materials are more rigid than others. In this application, Polypropylene (PP), laminated structures, films containing high density polyethylene (HDPE), co-extruded materials containing barrier resins such as nylon (PA) and/or ethylene vinyl alcohol (EVOH) and materials having rigidity properties that are the same or similar to these materials are considered rigid materials. For the belts 48, 49 to be placed in the belts 40, 41, the web material must slide between the belts to some degree. If the material has a high coefficient of friction (i.e. the material is not "slippery" enough), the material may have difficulty sliding between the two belts when a belt 48, 49 is inserted into a belt 40, 41. In this application, a coefficient of friction greater than 0.15 is considered a high coefficient of friction.

[0018] The pre-insertion device 22 allows these materials to be gripped by the belts 40,41 and 48,49 by forcing the material into the recesses 51,52, by getting the material in a shape that allows the belts 48,49 to be inserted into the belts 48, 49 and/or by reducing the amount that the material has to stretch or slide to allow the belts 48, 49 to be inserted into the belts 40, 41. The pre-insertion device allows the belts 40, 41 and the belts 48, 49 to grip thick webs, rigid webs, and/or webs with a high coefficient of friction. An example of a material that the pre-insertion device 22 allows the belts 40, 41 and the belts 48, 49 to grip is OF3 mailbag material sold by Automated Packaging Systems, Inc. The pre-insertion device 22 allows the belts 40, 41 and the belts 48, 49 to grip webs that are made from a non-Linear Low Density Polyethylene (non-LLDPE) material, LLDPE webs having a thickness that is greater than 0.076 mm (3.0 mils) and/orwebs that have a coefficient of friction greater than 0.15. IV. The Bagger Section 17 A. A Bag Feed and Preparation Portion 35 [0019] The web 15 is fed from the supply 16 into a bag feed and preparation portion 35 of the bagger section 17. The feed is over the mandrel 24 and past a slitter 36, FIG. 6. The slitter 36 separates the top section 23 into opposed face and back lips 38, 39. The feed through the bag feed and preparation portion 35 is caused by the pair of endless, oppositely rotating, main transport belts 40, 41 supported by oppositely rotating pulley sets 42, 43. The main belts 40, 41 are driven by a stepper motor 44, FIG. 6 through pulleys 42T, 43T of the sets 42, 43. Other of the pulleys 42S, 43S are spring biased by springs S, FIG. 6, to tension the belts.

[0020] Referring to FIGS. 6 and 7, a plow 45 is positioned a short distance upstream from the pre-insertion device 22 and the belt insertion device 24. roller cam 46. As the lips are drawn along by the main transport belts 40, 41, the lips 38, 39 are respectively folded over the top surfaces 20 of the belts 40, 41. As can be seen in FIGS. 7 and 9, the belts 48, 49 are above the belts 40, 41 in the area upstream of the preinsertion device 22 and the lips 38, 39 are routed in the space between the belts 40, 41 and the belts 48,49. Once the web 15 reaches the pre-insertion device 22, the lips 38,39 of the web pressed into the recess 51, 52 of the endless conveyor belts 40, 41 by the roller 26 at a position where the endless conveyor belts 48, 49 are still above the conveyor belts 40, 41 in a vertical direction. That is, the belts 48, 49 are on top or above the top surface 20 of the conveyor belts 40, 41 at the roller 26.

[0021] Once the lips 38, 39 are pre-inserted into the recesses 51,52 of the belts 40,41, the belt insertion device 24 presses the belts 48, 49 into the complemental grooves 51, 52 in belts 41, 42 respectively. In the embodiment illustrated by FIGS. 8 and 12-16, the belts 48, 49 are circular in cross section, while the grooves 51,52 are segments of circles, slightly more than 180 degrees in extent. The camming of the belts 48,49 into the grooves 51,52 traps the lips 38, 39 between the belts 48, 49 and the grooves 51,52. The lips 38, 39 are secured between the coacting belt pairs 40, 41 and 48, 49 such that the lips, due to their coaction with the belts, are capable of resisting substantial stuffing forces as products are forced into the bags at a load station 60. Sections of the belts 48,49 which are not in the grooves 51,52 are trained around a set of pulleys 50.

[0022] Referring to FIG. 7, an optional bag side separator mechanism 53 may be provided at a bag connection breaking station. The separator mechanism 53 includes an endless belt 54 which is driven by a motor 57. As the belt is driven, breaking pins 58 projecting from the belt 54 passes between adjacent sides of bags to break the frangible interconnections 30. Thus, as the bags depart the bag feed and preparation portion 35, they are separated from one another but remain connected to the lips 38, 39. B. The Load Station 60 [0023] Referring to FIGS. 6 and 8, the load station 60 includes a pair of parallel belt spreaders 61, 62. The belt spreaders are mirror images of one another. As is best seen in FIG. 6, the belt spreaders respectively include channels 63,64. The channels 63,64 respectively guide the main transport belts 40,41, on either side of the load station 60. When the transport belts 40,41, are in the channels 63, 64 (FIG. 8), the bags 25 are stretched between the belts in a rectangular top opening configuration (FIG. 6).

[0024] A schematic illustration of a supply funnel 66 is included in FIG. 7. It should be apparent that the products can be placed in the bags in a wide variety of different ways, which may be manual and/or automated. In the embodiment illustrated by FIG. 7, the products to be packaged may be deposited through the rectangular bag openings of the bags each time a bag is registered with the supply funnel at the load station.

[0025] Referring to FIGS. 6 and 8, a space adjusting mechanism may be provided for adjusting the width of the openings of the bags. This mechanism includes a spaced pair of adjustment screws 68, 69 (see FIG. 6). The adjustment screw 68, 69 are respectively centrally journaled by bearings 70,71. The screws have oppositely threaded sections on either side of their bearings 70, 71 which threadably engage the belt spreaders 61,62. Rotation of a crank 72 causes rotation of the adjustment screw 69. The screw 69 is connected to the screw 68 via belts or chains 73, which function to transmit rotation forces so that when the crank 72 is operated the screws 68,69 are moved equally to drive the spreaders equally into an adjusted spatial, but still parallel, relationship.

[0026] As the spreaders are movably adjusted toward and away from one another, the spring biased pulleys 42S, 43 S maintain tension on the belts 40, 41 while permitting relative movement of spans of the belts passing through the spreader channels 63, 64. The main transport pulley sets 42, 43 include two idler pulleys 75, 76 downstream from the load station 60. The idler pulleys 75, 76 are relatively closely spaced to return the belts 40,41 intosubstantiallyjuxtaposed relationship following exit from the load station 60.

[0027] Since the main and lip transport belts are rela- tively flexed in a vertical plane as they are brought together to grip a bag and relatively flexed in a horizontal plane as they pass through the load station, it will be seen that the belts are flexible in two directions which are orthogonal to one another. C. Examples of Bag Stretching Arrangements [0028] As loaded bags exit the load station, it may be desirable to return upper portions of the bag faces and backs into juxtaposition. The machine of the present invention may employ many different mechanisms to stretch the bags such that the upper portions of the bag faces and backs are enabled to return to juxtaposition. One exemplary embodiment, used, for example, with smaller bags, includes a planetary stretcher 90 (FIG. 29).

[0029] The planetary stretcher may include a bag trailing edge engaging element that includes six bag engaging fingers 106. As is best seen in FIG. 29, one of those fingers 96 is shown in a lead one of the bags 25 while the next finger is being moved into the next bag in line as the next bag departs the load station 60. A lead edge engaging element has four fingers 96 which orbit at one and a halftimes the rate of the fingers 106. Rotation of the lead edge engaging element causes one of the fingers 96 to enter the next bag as it exits the load station and to engage a leading edge 108 of the bag while the trailing edge finger 106 engages the trailing edge 98, thereby stretching the bag until top portions of the bag face and back are brought into juxtaposition.

[0030] In another embodiment of the bag stretching device, illustrated in FIG. 30 and used, for example, with larger bags, the stretching of the loaded bags as they exit the load station may be accomplished with jets of air from nozzles, 112. The nozzles 110, 112 respectively blow air against the lead and trailing edges of the bag, thus stretching the bags from theirrectangularorientation into a face to back juxtaposed relationship as the transport belts are returned to juxtaposition. V. Example of a Closure Section / Closing Arrangement [0031] The conveyor assembly 16 illustrated by FIGS. 1-5 can be used with a variety of different types of closing or sealing arrangements 19, including, for example, stapling, crimping, and heat sealing. Additionally many different mechanisms may be employed to hold the top portions of the bags togetherfor sealing. Details of examples of acceptable closing arrangements can be found in the S P and Sealer Belt Patents referenced above. VI. A Support Conveyor [0032] In one exemplary embodiment, a support conveyor 160 may be provided to support the bottom of the bags 25 as they pass through the bagger section 17 (See FIG. 7). The support conveyor may include height adjustment and locking mechanisms 164 to locate the con- veyor 160 in an appropriate position to support the weight of loaded bags being processed into packages. V. The Alternate Belt Embodiments [0033] The belts 40, 41 and the belts 48, 49 can take a wide variety of different forms. In some embodiments, only a portion of the belts 48, 49 may be accepted by the recesses 51,52. In other embodiments, the recesses 51, 52 may be configured to accept more than one belt 48, 49. In other recesses, the recesses 51, 52 may not be provided in the top surfaces 20 of the belts 40, 41. FIGS. 21-28 illustrate a variety of different nonlimiting examples of belt arrangements that may replace the belts 40, 41 and/or the belts 48,49.

[0034] Referring now to FIG. 21, mirror image main transport belts 100,102 are provided. Since the two are mirror images of one another, the transport belt 100 and the elements which co-act with it will be described, it being recognized that corresponding mirror image coaction is provided with the belt 102. In this embodiment three lip clamping belts 104-106 are provided. A section of the web 108 passes upwardly in engagement with a transport path side 110 of the main transport belt 100. The section 108 then passes across a top section 112 of the transport belt 100 and into a recess 114. The lip clamping belts 104-106 are disposed in the recess 114 which is in the shape of an arrowhead in cross section to accommodate the three belts. The web 108 is reeved over an inside surface of the clamping belt 106 and thence under the transport belts 104,105. If downward force is applied to the fill 108, the film tends to push the clamping belt 106 into a corner 115 of the recess 114. The belts 104,105 are pulled together with the belt 105 clamping the film against the belt 106 to increase the gripping power of the arrangement as force is applied to the film 108.

[0035] Referring now to FIG. 22, main transport belts 118,120 are disclosed. Again, in that the belts are mirror images, only the left hand belt will be described in detail. The belt 118 includes a generally triangular upper recess 122. The film section 108 extends upwardly along a side 124 of the belt 108, thence over a top surface 125 and into the recess 122. The film rides over a relatively small diameter clamping belt 126 and thence is reeved almost completely around a relatively large clamp belt 128. In this embodiment, the transport belt 118 rides under a rail 130 which retains the clamp belts 126,128 and the film in the recess 122. Downward forces on the film 108 pull the large clamp belt 128 against the rail and the small clam p belt 126 forcing the clam p belt 126 against a corner of the recess 122 and gripping the plastic firmly both between the clamp belts and between the clamp belt 128 and the rail 130.

[0036] The embodiment of FIG. 23 is similar to FIG. 8, except that the recess is generally rectangular and the clamp belts are of equal size. Accordingly, like reference numerals with primes added are used in that embodiment.

[0037] Referring now to FIG. 24, main transport belts 132,134 are provided. These belts are very similar to the preferred belts as shown in particular in FIGS. 5 and 6 with the exception that the clamp belt 49 resides in a recess 135 that is formed in a chamfered outwardly oriented surface 136, rather than a top surface as is the case with the surfaces 40S, 41S.

[0038] Referring now to FIG. 25, main transport belts 138,140 are provided. The transport belt 138 has an outwardly oriented recess 142 in which upper and lower clamp belts 144,145 are disposed. The film section 108 is trained upwardly along the inwardly facing side of the belt 138 over its top and thence downwardly and into the recess 142. The film is reeved substantially completely around the lower belt 145, such that when tension force is applied to the film 108 the belt 145 is pulled upwardly to increase the damping force between the clamping belts 144,145.

[0039] In FIG. 26, stationary rails 148,150 are provided. The rail 148 has in inwardly oriented rectangular recess 152. A pair of equally sized circular clamping belts 154,155 are disposed within the recess 152. The film section 108 is reeved substantially completely around the upper one of the clamping belts 154 and over the lower clamping belt 155, such that downward force on the film 108 will increase friction around a majority of the perimeter of the upper belt 154 and tightly clamp the film between the clamping belts 154,155. Another fixed rail 156 co-acts with the belts 154,155 to maintain them in the recess 152.

[0040] FIG. 27 differs from the embodiment of FIGS. 2-5 only in that the external surfaces of the transport belts are circular and thus the belts are identified by their reference numerals 40’,41’.

[0041] FIG. 28 is a variant of the embodiment of FIG. 26, in which the lower clamping belt 155 has been omitted and stationary rails are identified by the reference numerals 148’, 150’. These examples illustrate that the belts 40, 41 and the belts 48, 49 can take a wide variety of different forms, with the pre-insertion device 22 and the belt insertion device 24 being adapted to work with the different belt configurations. VI. Operation of the Machine [0042] A web 15 of bags 25 is fed through the bagger by jogging. The transverse spacing of the main conveyor belts 40, 41 is adjusted by rotating the crank 72 until the load station 60 has the desired transverse dimension. A control, not shown, is set to provide a desired feed rate and a selected one of continuous or intermittent operation.

[0043] Once the machine is in operation, the top section 23 of the web 15 is fed along the mandrel 24 and slit by the slitter 36. This forms the lips 38, 39 which are folded over the main transport belts 40, 41 by the action of the plow 45. The belts 48, 49 descend from the elevated and spring biased pulleys 50S, as shown in FIGS. 7 and 9. The pre-insertion device 22 presses the lips 38, 39 into the recesses and then the belt insertion device 22 pushes the belts 48, 49 into the recesses 51, 52 to provide very positive and firm support for the bags as they are further processed. As successive side connections 30 of the bags are registered with the bag side separator 53, the motor 55 is operated to drive the belt 54 and cause the breaker pins 58 to rupture the side connections 30.

[0044] As adjacent runs of the belts 40, 41 progress downstream from the bag feed and preparation portion 35, the belts are spread under the action of the belt spreaders 61,62. As the belts are spread, the lips 38, 39 cause the front and back faces 31,32 adjacent the lead edge of each bag to separate from the lips 38, 39 by tearing a sufficient length of the perforations between them to allow the lead edge to become the midpoint in a bag span between the belts as the bag passes longitudinally through the load station 60. Similarly, the perforations adjacent the trailing edge are torn as the trailing part of the bag is spread until the bag achieves a full rectangular opening as shown in FIG. 6.

[0045] Next a product is inserted into the rectangular bag as indicated schematically in FIG. 6. While the schematic showing is of discrete fasteners, it should be recognized that this machine and system are well suited to packaging liquids and bulky products which must be stuffed into a bag, such as pantyhose and rectangular items, such as household sponges.

[0046] After the product has been inserted, the adjacent runs of the main transport belts are brought back together and the loaded bag tops are spread longitudinally of the path of travel either by the planetary stretcher 90 (FIG. 29) or by opposed airstreamsfrom nozzles (FIG. 30).

[0047] As is best seen in FIG. 7, exit ones 50E of the lip belt pulley set are spaced from the main transport belt and rotatable about angular axes. Expressed more accurately, when the machine is in a vertical loading orientation, the pulleys 50E are above the main transport belt such that the belts 48, 49 are pulled from the grooves 51,52.

[0048] Although the invention has been described in its preferred form with a certain degree of particularity, it is understood that the present disclosure of the preferred form has been made only by way of example and that numerous changes in the details of construction, operation and the combination and arrangement of parts may be resorted to without departing from the scope of the invention as hereinafter claimed.

Claims 1. A conveyor assembly (16) for gripping a web material (15) and moving the web material along a path of travel comprising: a first endless conveyor belt (40) having an endless web engaging recess (51) formed therein; a second endless conveyor belt (48), the recess (51) and the second belt (48) having mating cross sectional configurations; a belt insertion device (24) positioned to press the second endless conveyor belt (48) into the recess (51), wherein pressing the second endless conveyor belt (48) into the recess (51) by the belt insertion device (24) causes the first and second belts to grip the web, wherein movement of the first and second endless belts moves the gripped web along the path of travel; characterized by: a web pre-insertion device (22) positioned to press a portion of the web into said recess (51); wherein the belt insertion device (24) is positioned to press the second endless conveyor belt (48) into the recess (51) after the pre-insertion device (22) has pressed said portion of the web into the recess (51). 2. The conveyor assembly (16) of claim 1 further comprising a drive for moving the first and second belts to transport the web along the path of travel. 3. The conveyor assembly (16) of claim 1 wherein the web pre-insertion device (22) is a roller: 4. The conveyor assembly (16) of claim 3 wherein the roller includes an annular projection that fits in the recess (51) of the first endless conveyor belt (40). 5. The conveyor assembly (16) of claim 4 wherein the annular projection presses the web into the recess (51 ) of the first endless conveyor belt (40). 6. The conveyor assembly (16) of claim 1 wherein the belt insertion device (24) is a roller. 7. The conveyor assembly (16) of claim 1 wherein the web pre-insertion device (22) is a first roller and the belt insertion device (24) is a second roller. 8. The conveyor assembly (16) of claim 7 wherein an edge of said web is routed between the first endless conveyor belt (40) and the second endless conveyor belt (48) at a position where the first and second endless conveyor belts are spaced apart in a vertical direction, then said edge of said web is pressed into the recess (51 ) of the first endless conveyor belt (40) by the first roller at a position where the second endless conveyor belt (48) is on or above a top surface of the first conveyor belt (40). 9. The conveyor assembly (16) of claim 7 wherein an edge of said web is routed between the first endless conveyor belt (40) and the second endless conveyor belt (48) at a position where the first and second endless conveyor belts are spaced apart in a vertical direction, then said edge of said web is pressed into the recess (51 ) of the first endless conveyor belt (40) by the first roller at a position where the first and second endless conveyor belts are spaced apart in a vertical direction. 10. The conveyor assembly (16) of claim 7 wherein the first roller and the second roller are within three inches of one another along said path of travel. 11. A method of gripping first and second lips of a web material (15) and moving the web material along a path of travel comprising: pre-inserting, by means of a web pre-insertion device (22), first and second lip portions of the web into recesses (51,52) of a first pair of endless conveyor belts (40, 41) such that one lip portion is disposed in each recess (51); pressing a second pairof endless conveyor belts (48, 49) into the recesses (51,52) after said first and second lip portions of the web have been pre-inserted into the recesses (51,52); wherein pressing the second pair of endless conveyor belts (48, 49) into the recesses (51, 52) causes the first and second pairs of belts (40, 41, 48, 49) to grip the first and second lip portions of the web respectively; moving the first and second pairs of endless belts (40, 41, 48, 49) to move the gripped lip portions along the path of travel. 12. The method of claim 11 wherein said first and second lip portions of said web are routed between the first pair of endless conveyor belts (40, 41 ) and the second pair of endless conveyor belts (48, 49) at a position where the first and second pairs of endless conveyor belts are spaced apart in a vertical direction, then said first and second lip portions of said web are pressed into the recesses (51, 52) of the first pair of endless conveyor belts (40, 41) at a position where the second pair of endless conveyor belts (48, 49) are on or above top surfaces of the first pair of endless conveyor belts (40, 41). 13. The method of claim 11 wherein said first and second lip portions of said web are routed between the first pair of endless conveyor belts (40, 41 ) and the second pair of endless conveyor belts (48, 49) at a position where the first and second pairs of endless conveyor belts are spaced apart in a vertical direction, then said first and second lip portions of said web are pressed into the recesses (51, 52) of the first pair of endless conveyor belts (40, 41) at a po- sition where the first and second pairs of endless conveyor belts are spaced apart in a vertical direction.

Patentansprüche 1. Förderanordnung (16) zum Greifen eines Bahnmaterials (15) und Bewegen des Bahnmaterials entlang eines Verfahrwegs, umfassend: ein erstes Endlosförderband (40) mit einer darin ausgebildeten, in eine Endlosbahn eingreifenden Aussparung (51); ein zweites Endlosförderband (48), wobei die Aussparung (51) und das zweite Band (48) zusammenpassende Querschnittskonfigurationen aufweisen; eine Bandeinführvorrichtung (24), die ausgelegt ist, das zweite Endlosförderband (48) in die Aussparung (51) zu pressen, wobei das Pressen des zweiten Endlosförderbandes (48) in die Aussparung (51) durch die Bandeinführvorrichtung (24) bewirkt, dass das erste und das zweite Band die Bahn ergreifen, wobei eine Bewegung des ersten und des zweiten Endlosbandes die ergriffene Bahn entlang des Verfahrwegs bewegt; gekennzeichnet durch: eine Bahnvoreinführvorrichtung (22), die ausgelegt ist, einen Abschnitt der Bahn in die Aussparung (51) zu pressen; wobei die Bandeinführvorrichtung (24) ausgelegt ist, das zweite Endlosförderband (48) in die Aussparung (51) zu pressen, nachdem die Voreinführvorrichtung (22) den Abschnitt der Bahn in die Aussparung (51) gepresst hat. 2. Förderanordnung (16) nach Anspruch 1, ferner umfassend einen Antrieb, um das erste und das zweite Band zum Transport der Bahn entlang des Verfahrwegs zu bewegen. 3. Förderanordnung (16) nach Anspruch 1, wobei die Voreinführvorrichtung (22) eine Rolle ist. 4. Förderanordnung (16) nach Anspruch 3, wobei die Rolle einen ringförmigen Vorsprung aufweist, der in die Aussparung (51 ) des ersten Endlosförderbandes (40) passt. 5. Förderanordnung (16) nach Anspruch 4, wobei der ringförmige Vorsprung die Bahn in die Aussparung (51) des ersten Endlosförderbandes (40) presst. 6. Förderanordnung (16) nach Anspruch 1, wobei die Bandeinführvorrichtung (24) eine Rolle ist. 7. Förderanordnung (16) nach Anspruch 1, wobei die Bahnvoreinführvorrichtung (22) eine erste Rolle ist und die Bandeinführvorrichtung (24) eine zweite Rolle ist. 8. Förderanordnung (16) nach Anspruch 7, wobei eine Kante der Bahn zwischen dem ersten Endlosförderband (40) und dem zweiten Endlosförderband (48) an eine Position geleitet wird, an der das erste und das zweite Endlosförderband voneinander in einer vertikalen Richtung beabstandet sind, wobei die Kante dann durch die erste Rolle die Bahn in die Aussparung (51) des ersten Endlosförderbandes (40) an eine Position presst, an der sich das zweite Endlosförderband (48) auf oder über einer oberen Oberfläche des ersten Förderbandes (40) befindet. 9. Förderanordnung (16) nach Anspruch 7, wobei eine Kante der Bahn zwischen dem ersten Endlosförderband (40) und dem zweiten Endlosförderband (48) an eine Position geleitet wird, an der das erste und das zweite Endlosförderband voneinander in einer vertikalen Richtung beabstandet sind, wobei die Kante dann die Bahn in die Aussparung (51) des ersten Endlosförderbandes (40) durch die erste Rolle an eine Position presst, an der das erste und das zweite Endlosförderband voneinander in einer vertikalen Richtung beabstandet sind. 10. Förderanordnung (16) nach Anspruch 7, wobei die erste Rolle und die zweite Rolle entlang des Verfahrwegs innerhalb von drei Inch voneinander entfernt liegen. 11. Verfahren zum Greifen einer ersten und einer zweiten Lippe eines Bahnmaterials (15) und Bewegen des Bahnmaterials entlang eines Verfahrwegs, umfassend:

Voreinführen mittels einer Bahnvoreinführvorrichtung (22) eines ersten und eines zweiten Lippenabschnitts der Bahn in Aussparungen (51, 52) eines ersten Paars von Endlosförderbändern (40, 41), sodass ein Lippenabschnitt in jeder Aussparung (51) angeordnet ist;

Pressen eines zweiten Paars von Endlosförderbändern (48, 49) in die Aussparungen (51,52), nachdem der erste und der zweite Lippenabschnitt der Bahn in die Aussparungen (51, 52) voreingeführt wurden; wobei das Pressen des zweiten Paars von Endlosförderbändern (48, 49) in die Aussparungen (51, 52) bewirkt, dass das erste und das zweite Paar von Bändern (40, 41, 48, 49) den ersten bzw. den zweiten Lippenabschnitt der Bahn ergreifen;

Bewegen des ersten und des zweiten Paars von Endlosbändern (40,41,48, 49), um die ergriffe- nen Lippenabschnitt entlang des Verfahrwegs zu bewegen. 12. Verfahren nach Anspruch 11, wobei der erste und der zweite Lippenabschnitt der Bahn zwischen dem ersten Paar von Endlosförderbändern (40, 41) und dem zweiten Paarvon Endlosförderbändern (48,49) an eine Position geleitet werden, an der das erste und das zweite Paarvon Endlosförderbändern voneinander in einer vertikalen Richtung beabstandet sind, wobei dann der erste und der zweite Lippenabschnitt der Bahn in die Aussparungen (51,52) des ersten Paars von Endlosbandförderern (40, 41) an eine Position gepresst werden, an der sich das zweite Paarvon Endlosförderbändern (48, 49) auf oder über oberen Oberflächen des ersten Paars von Endlosbandförderern (40, 41) befindet. 13. Verfahren nach Anspruch 11, wobei der erste und der zweite Lippenabschnitt der Bahn zwischen dem ersten Paarvon Endlosbandförderern (40, 41) und dem zweiten Paarvon Endlosförderbändern (48,49) an eine Position geleitet werden, an der das erste und das zweite Paarvon Endlosförderbändern voneinander in einer vertikalen Richtung beabstandet sind, wobei dann der erste und der zweite Lippenabschnitt der Bahn in die Aussparungen (51,52) des ersten Paars von Endlosbandförderern (40, 41) an eine Position gepresst werden, an derdas erste und das zweite Paar von Endlosförderbändern voneinander in einervertikalen Richtung beabstandetsind.

Revendications 1. Ensemble transporteur (16) destiné à saisir un matériau en bande (15) et à déplacer le matériau en bande le long d’un trajet d’acheminement comprenant : une première courroie de transporteur sans fin (40) dans laquelle est formée une cavité d’accouplement avec la bande sans fin (51) ; une seconde courroie de transporteur sans fin (48), la cavité (51) et la seconde courroie (48) présentant des configurations en section transversale conjuguées ; un dispositif d’insertion de courroie (24) positionné de façon à presser la seconde courroie de transporteur sans fin (48) dans la cavité (51), le fait que le dispositif d’insertion de courroie (24) presse la seconde courroie de transporteur sans fin (48) dans la cavité (51) amenant les première et seconde courroies à saisir la bande, le déplacement des prem ière et seconde courroies sans fin déplaçant la bande saisie le long du trajet d’acheminement ; caractérisé par : un dispositif de pré-insertion de bande (22) positionné de façon à presser une partie de la bande dans ladite cavité (51) ; le dispositif d’insertion de courroie (24) étant positionné de façon à presser la seconde courroie de transporteur sans fin (48) dans la cavité (51) une fois que le dispositif de pré-insertion de bande (22) a pressé ladite partie de la bande dans la cavité (51). 2. Ensemble transporteur (16) selon la revendication 1, comprenant en outre un dispositif d’entraînement destiné à déplacer les première et seconde courroies afin de transporter la bande le long du trajet d’acheminement. 3. Ensemble transporteur (16) selon la revendication 1, dans lequel le dispositif de pré-insertion de bande (22) est un rouleau. 4. Ensemble transporteur (16) selon la revendication 3, dans lequel le rouleau comprend une partie saillante annulaire qui s’ajuste dans la cavité (51) de la première courroie de transporteur sans fin (40). 5. Ensemble transporteur (16) selon la revendication 4, dans lequel la partie saillante annulaire presse la bande dans la cavité (51 ) de la première courroie de transporteur sans fin (40). 6. Ensemble transporteur (16) selon la revendication 1, dans lequel le dispositif d’insertion de courroie (24) est un rouleau. 7. Ensemble transporteur (16) selon la revendication 1, dans lequel le dispositif de pré-insertion de bande (22) est un premier rouleau et le dispositif d’insertion de courroie (24) est un second rouleau. 8. Ensemble transporteur (16) selon la revendication 7, dans lequel un bord de ladite bande est dirigé entre la première courroie de transporteur sans fin (40) et la seconde courroie de transporteur sans fin (48) au niveau d’une position où les première et seconde courroies de transporteur sans fin sont espacées l’une de l’autre dans un sens vertical, puis ledit bord de ladite bande est pressé dans la cavité (51) de la première courroie de transporteur sans fin (40) par le premier rouleau au niveau d’une position où la seconde courroie de transporteur sans fin (48) se trouve sur ou au-dessus d’une surface supérieure de la première courroie de transporteur sans fin (40). 9. Ensemble transporteur (16) selon la revendication 7, dans lequel un bord de ladite bande est dirigé entre la première courroie de transporteur sans fin (40) et la seconde courroie de transporteur sans fin (48) au niveau d’une position où les première et seconde courroies de transporteur sans fin sont espacées l’une de l’autre dans un sens vertical, puis ledit bord de ladite bande est pressé dans la cavité (51) de la première courroie de transporteur sans fin (40) par le premier rouleau au niveau d’une position où les première et seconde courroies de transporteur sans fin sont espacées l’une de l’autre dans un sens vertical. 10. Ensemble transporteur (16) selon la revendication 7, dans lequel le premier rouleau et le second rouleau sont situés à une distance inférieure ou égale à trois pouces l’un vis-à-vis de l’autre le long dudit trajet d’acheminement. 11. Procédé pour saisir des première et seconde lèvres d’un matériau en bande(15) et déplacer le matériau en bande le long d’un trajet d’acheminement comprenant : pré-insérer, au moyen d’un dispositif de pré-insertion de bande (22), des première et seconde parties lèvres de la bande dans des cavités (51, 52) d’une première paire de courroies de transporteur sans fin (40, 41) de telle sorte qu’une partie lèvre soit disposée dans chaque cavité (51); presser une seconde paire de courroies de transporteur sans fin (48, 49) dans les cavités (51, 52) une fois que les première et seconde parties lèvres de la bande ont été pré-insérées dans les cavités (51,52) ; le fait de presser la seconde paire de courroies de transporteur sans fin (48,49) dans les cavités (51,52) amenant les première et seconde paires de courroies (40,41,48,49) à saisir respectivement les première et seconde parties lèvres de la bande ; déplacer les première et seconde paires de courroies sans fin (40, 41,48, 49) afin de déplacer les parties lèvres saisies le long du trajet d’acheminement. 12. Procédé selon la revendication 11, dans lequel lesdites première et seconde parties lèvres de ladite bande sont dirigées entre la première paire de courroies de transporteur sans fin (40, 41) et la seconde paire de courroies de transporteur sans fin (48, 49) au niveau d’une position où les première et seconde paires de courroies de transporteur sans fin sont espacées l’une de l’autre dans un sens vertical, puis lesdites première et seconde parties lèvres de ladite bande sont pressées dans les cavités (51,52) de la première paire de courroies de transporteur sans fin (40,41) au niveau d’une position où la seconde paire de courroies de transporteur sans fin (48,49) se trouvent sur ou au-dessus de surfaces supérieures de la première paire de courroies de transporteur sans fin (40, 41). 13. Procédé selon la revendication 11, dans lequel les-dites première et seconde parties lèvres de ladite bande sont dirigées entre la première paire de courroies de transporteur sans fin (40, 41 ) et la seconde paire de courroies de transporteur sans fin (48, 49) au niveau d’une position où les première et seconde paires de courroies de transporteur sans fin sont espacées l’une de l’autre dans un sens vertical, puis lesdites première et seconde parties lèvres de ladite bande sont pressées dans les cavités (51,52) de la première paire de courroies de transporteur sans fin (40, 41) au niveau d’une position où les première et seconde paires de courroies de transporteur sans fin sont espacées l’une de l’autre dans un sens vertical.

Claims (7)

ELJÁRÁS S»BADAIM Γ MliMÖNlÄPROCEDURE FOR S »BADAIM Γ MliMÖNlÄ 1. Sz.áHi tôberendezés (16) szalagos anyag (15) befogásán és a szalagos anyagnak egy mozgatási pályán történő mozgatására, amely Lerendezés tartalmaz: egy első végteiénítetf szállitóhevedert (40), amely rendelkezik egy benne kialakítóit végíéleniteíí szaiagvhetiesxtö mélyedéssel (51); egy második végtelenített ;>/,*; íúéhevedert (48), a mélyedés (51) és a másodiÉ Leveder (48) keresztmetszeti kialakítása illeszkedik egymáshoz; egy heveder-beheiyező eszközt (24). amely úgy van pozícionálva, hogy a második végtelenített szálHtohevedert (48) belenyomja a mélyedésbe (51), és a második végtelenített szállitóhevedemek (48 í ez a heveder-beheiyező eszköz (24) áliulí belenyomása a mélyedésbe (51) azt eredményezi, hogy az első és a második heveder befogja a szalagot, és az első és a második végtelenített heveder mozgása a befogott szalagot a mozgatási pályán mozgatja; azzal jellemezve, holy egy szaiag-elöbehelyezÖ eszköz (22) úgy van pozieiönáiyáí hogy a szalag egy részéi belenyomja ebbe a mélyedésbe (51); továbbá a heveder-beheiyező eszköz (24) úgy van pozícionálva, hogy a második végtelenitei szállúóhevedert (48) azután nyomja bele a mélyedésbe (51), hogy a szalag-előbehelyézo eszköz (22) már belenyomta a szalagnak ezt a részét a mélyedésbe (51),An apparatus (16) for clamping a tape material (15) and moving a tape material on a movement path comprising: a first terminating conveyor belt (40) having a recess (51) therein; a second endless;> /, *; a cross-sectional configuration of the strap (48), the recess (51) and the other (1) Leveder (48); a strapping device (24). which is positioned so that the second endless threaded belt (48) is pressed into the recess (51), and the second endless conveyor belt (48) is a pinch of the strap insertion device (24) into the recess (51) resulting in the first strap and the second strap grips the belt, and the movement of the first and second endless straps moves the captured strip on the movement path, characterized in that a slinging device (22) is positioned so that a portion of the strip is pushed into this recess ( 51) furthermore, the belt insertion device (24) is positioned such that the second endless belt conveyor belt (48) is then inserted into the recess (51) so that the portion of the belt pre-loading device (22) has already pushed this portion of the belt into the recess (51). into recess (51) 2. Az i. igénypont szerinti szállítóberendezés (16), amely tartalma? továbbá hajtást az első és a második heveder mozgatására a szalagnak a mozgatási pályán történő továbbítása eéljáhoL2. The i. A conveyor device (16) according to claim 1, wherein the contents are? furthermore, driving the first and second straps to drive the belt on the movement path. 3. Az 1, igénypont szerinti szállítóberendezés (16),.«mélyben a szalag-elöhahetyezŐ eszköz (22) egy henger.A conveyor device (16) according to claim 1, in which the belt pre-deflector means (22) is a cylinder. 4, Λ 3, igém pont szerinti szállítóberendezés <16), amelyben a henger magában íógia! egy gyűrű alakú kiemelkedést, amely beleillik az első végtelenített szállitóheveder fii) mélyedésébe (51).4, Λ 3, convex conveyor <16), in which the cylinder engages itself! an annular protrusion that fits into the recess (51) of the first endless conveyor belt. 5. A 4, igénypont szerinti szállítóberendezés (lő), amelyben a gyűrű alakú kiemelkedés végtelenített' szállitúheveder (40) mélyedésébe (51),The conveying device (shoot) according to claim 4, wherein the annular protrusion is infinitely in the recess (51) of the conveyor belt (40), 6. Az 1. igénypont szerinti szállítóberendezés (16), amelyben a szalag»behelyezö eszköz (24) egy henger.A conveyor device (16) according to claim 1, wherein the belt-inserting device (24) is a cylinder. 7. Az 1. igénypont szerinti szállítóberendezés (16).. amelyben a szalag>elöbeáélyezó'. fsáíöz (22 ) egy első henger, a szaíag-behelyező eszköz (24) pedig egy második henger. I, A 7. Igénypont szerinti szállítóberendezés (16), amelyben a szalag egyik széle az első végíéléüitetí szállitóheveder (40) és a második végtelenített szállítóheveder (48|: között iímtyítva van annál a pozíciónál, ahol az első és a második végtelenített száilííóhevéder függőleges irányban egymástól bizonyos távolságra helyezkedik el maid a szalagnak ezt a szélét az első henger belévommja az első végtelenített szállitóheveder (40) mélyedésébe (51) annál a pozíciónál, ahol a második végtelenlteít száilltéheveder (48) az első szállíiőheveder (40) felső felületén vagy efelett van, 9. A 7. igénypont szerinti szállítóberendezés (16), amelyben a szalag egyik széle az első végtelenített szállítóheveder (40) és a második végtelenített szállitóheveder (48) között irányítva van annál a pozíciónál, ahol az első és a második végtelenített szállitóheveder függőleges irányban egymástól bizonyos távolságra helyezkedik el, majd a szalagnak ezt a szélét az első henger belenyomja az első végtelenített szállitóheveder í 40y mélyedésébe (51) annál a pozíciónál, ahol az első és a második végtelenített szállitóheveder titggőleges irányban egymástól bizonyos távolságra helyezkedik el !0. Λ 7. igénypont szerinti szállítóberendezés (16), amelyben az első és a második henger a mozgatási pályán egymástól három hüvelyken (kb, 76 mm) belül van. II, Eljárás szalagos anyag (15) befogására és a szalagos anyagnak egy mozgatási pályán történő mozgatására, amely eljáms a kövétkező lépésekéi tartalmazza: előzetesen behelyezzük egy szalag-eiőhehelyezö eszköz (22) segítségévei a szalag első és második szegélyreszeit végtelenített száiiííóhevederek (4¾. 41} egy első párjának mélyedéséibe (5 L 52) ágy, hogy mindegyik mélyedésbe pl) égy szegélyrész kerül; belenyomjnkvégtelenített száilítóhevederek (48, 49) egy második párját a mélyedésebbe (51, 52) azután, hogy a szalag első és második szegélyrészeit már bele helyeztük a mélyedésekbe (51,52); és a -végtelenített szállítóhevederek (48, 49) második párjának ez a belenyomá^a a mélyedésekbe (51, 52} azt eredményezi, hogy a hevedereknek <40, 41, 41, 49) az első és a második párjai befogják a szalag első. illetve második szegélyvészeit; a végtelenített hevedereknek (40. 41.48, 49) az első és a második páQál'igytmózg^iüfehogy a befogott szégélyrészeküt a mozgatási pályán mozgassák , 12, A 1.1. igénypont szerinti eljárás, amelyben a szalag első és második szegélyrészeit a végtelenített száiiitóhe vederek (40, 41) első párja és a végtelenített száilítóhevederek (48, 49) második párja között irányítjuk annál a pozíciónál, ahol a \ oakleintett ^/<dhtohe\ edercknev az első és a második párja függőleges irányban egymástól bizonyos távolságra helyezkedik el. -majd a szalagnak ezt m első és második szegélyrészeit· belenyomjuk a végtelenített -száüítóhevederek (40, 41} első párjának mélyedéseibe (51, 52) annál a pozicionáló ahol a végtelenített szMlitóhevederék (48, 49)· második pária a végtelenített száll í tőhevederek (40, 41) első párjának felső íélüleién vagy efelett van. 13;,  11, igénypont szerinti eljárás, amelyben a szalag első és második szegélyrészeU a végtelenített száílnóhe\ ederek (40, 41} első párja és a végtelenített száílí tó hevederek (48, 49) második párja között irányítjuk annál a pozíciónál, ahol a végtelenített szállítőhevederek első és második párjai függőleges irányban egymástól bizonyos távolságra helyezkednek el, majd a szalagnak ezt az első és második szegéiyrészeit belenyomjuk a végtelenített szállítőhevederek (40, 41) első párjának mélyedéseibe (51, 52} annál a pozíciónál, ahol a végtelenített, száÜIíóhevederek első és második párjai függőleges irányban egymástól bizonyos távolságra helyezkednek el.A conveyor device (16) according to claim 1, wherein the ribbon is a preformer. a first roller (22) and a second roll cylinder (24). A conveyor device (16) according to claim 7, wherein one of the edges of the strip is the first end-conveyor belt (40) and the second endless conveyor belt (48? Is stitched at the position where the first and second endless runners are vertical at a distance from each other, this edge of the strip is pushed into the recess (51) of the first endless belt (40) at a position where the second endless belt (48) is on or above the top surface of the first belt (40), A conveyor device (16) according to claim 7, wherein one edge of the strip is directed between the first endless belt (40) and the second endless belt (48) at a position where the first and second endless conveyor belts are vertically spaced apart. bi at a slight distance, then this edge of the web is pressed into the first endless conveyor belt 40y (51) by the first cylinder at a position where the first and second endless conveyor belts are spaced apart from each other in a vertical direction. Ezés A conveyor device (16) according to claim 7, wherein the first and second cylinders are within three inches (about 76 mm) of the movement path. II. A method for gripping a tape material (15) and moving the tape material into a moving path, which comprises the following stepping steps: pre-inserting a ribbon retractor (22) into the first and second edge strips of the web with infinite webbing straps (4¾. 41). in the recesses of a first pair (5 L 52), a bed to each of the recesses, for example); pushing a second pair of deformed webs (48, 49) into the recess (51, 52) after inserting the first and second edge portions of the strip into the recesses (51,52); and this imprint of the second pair of conveyor belts (48, 49) in the recesses (51, 52) results in the first and second pairs of straps <40, 41, 41, 49) engaging the strip first. and second edges; the infinite straps (40.41.48, 49) are first and second paws, so the captured part of the shoulder is moved on the movement track, 12, A 1.1. A method according to claim 1, wherein the first and second edge portions of the strip are guided between the first pair of endless slipper rollers (40, 41) and the second pair of endless sliding webs (48, 49) at a position where the first and second pairs of vertically spaced apart pairs. - lower the first and second edges of the strip · push into the recesses (51, 52) of the first pair of infinitely constricted straps (40, 41) where the endless loops (48, 49) · second pairs of infinite belt straps ( A method according to claim 1, wherein the first and second edge portions of the strip are the first pair of infinite slots (40, 41) and the infinite slit straps (48, 41). 49) at a position where the first and second pairs of endless conveyor belts are spaced apart in a vertical direction, and the first and second rib portions of the belt are then pushed into the recesses of the first pair of endless conveyor belts (40, 41). 52} at the position where the infinite is orally first and second pairs of straps are located spaced apart in the vertical direction.